Coastal Engineering VI: Computer Modelling and Experimental Measurements of Seas and Coastal RegionsC. A. Brebbia, David Almorza Gomar, F. Lopez Aguayo The pollution and general degradation of coastal areas have become problems of major international concern while the related environmental problems need further study in order to implement effective remedial action. Moreover, the design and construction of developments necessary for navigation such as harbours and marinas require an accurate knowledge of sea climate, especially in cases of extreme conditions. |
Contents
Solving nonhydrostatic NavierStokes equations with a free surface | 3 |
Parallel edgebased implementation of the finite element method | 13 |
Threedimensional hydrodynamic modeling of an industrial coastal | 23 |
Copyright | |
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Common terms and phrases
ambient analysis barrier bathymetric beach profile bottom boundary conditions Boussinesq Busan channel cm/s CO₂ coast coastal currents coefficient computed concentration cross-shore density diffuser discharge dispersion dissipation distribution domain effects effluent energy environmental erosion estuaries field finite element flood flow fluid free surface function grid groynes Gulf horizontal hydraulic hydrodynamic hydrostatic increase interface internal waves layer longshore Margherita di Savoia Matsalu maximum measured mesh method mixing Navier-Stokes Navier-Stokes equations nonlinear NRBCs numerical model observed obtained ocean Ofanto offshore offshore-going oil spill outfall parameters Pärnu Bay pollutant port prediction problem region river salinity sand São Jacinto sea level seawater sediment sediment transport Shallow Water Equations shear stress shelf shoaling shoreline shown in Figure shows simulation slope solution storm structures surf zone Tallinn Bay tidal tide turbulence variations vertical water depth wave height дх